Peng Gu | Engineering | Best Researcher Award

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Assoc. Prof. Dr. Peng Gu | Engineering | Best Researcher Award

associate professor at donghua university, China

Dr. Gu Peng is an accomplished researcher specializing in ultra-precision manufacturing and intelligent processing equipment. He is currently an Associate Professor at Donghua University, following his postdoctoral research at Shanghai Jiao Tong University under the mentorship of esteemed scholars. His work focuses on advanced machining technologies, contributing to national and international research projects. With multiple high-impact publications, patents, and awards, Dr. Gu has established himself as a leading expert in precision engineering. His contributions extend beyond academia through industry collaborations, making significant advancements in manufacturing automation. He actively serves as a reviewer for top SCI journals and is recognized as an expert in China’s leading technology committees. His academic excellence, combined with his research leadership and industrial impact, positions him as a key figure in the field of intelligent manufacturing and ultra-precision machining.

Professional Profile

Education

Dr. Gu Peng obtained his Bachelor’s degree in Mechanical Design, Manufacturing, and Automation from Hefei University of Technology in 2016, graduating ranked first in his class. He pursued a Master’s-Doctoral continuous program in Mechanical Engineering at Tongji University, where he demonstrated outstanding research potential and academic excellence. During his doctoral studies, he participated in an international training program at Politecnico di Torino, Italy, expanding his expertise in advanced manufacturing technologies. His dedication to research earned him multiple national scholarships and institutional awards, including the Outstanding Doctoral Student Award at Tongji University. His education laid a solid foundation for his expertise in precision engineering, manufacturing automation, and optical surface processing.

Professional Experience

Dr. Gu Peng began his professional career as a Postdoctoral Researcher at Shanghai Jiao Tong University (2022-2024), where he worked on ultra-precision machining under the guidance of renowned scholars. In 2024, he joined Donghua University as an Associate Professor, leading projects on intelligent manufacturing technologies. He has played a critical role in multiple national research projects, including the National Natural Science Foundation of China (NSFC) Youth Fund and key industrial research initiatives. In addition to his academic roles, he has been an expert consultant for major industrial projects, contributing to the development of advanced machining equipment for aerospace, optics, and semiconductor industries. His professional experience bridges cutting-edge research and practical industrial applications, ensuring his work has both theoretical and real-world impact.

Research Interests

Dr. Gu Peng’s research focuses on ultra-precision machining, intelligent manufacturing, and automation technologies. He specializes in high-precision grinding and polishing techniques for complex optical surfaces, including microstructure arrays and freeform surfaces. His work also explores the integration of intelligent control systems and AI-driven manufacturing processes, improving efficiency and accuracy in high-performance manufacturing industries. As the Principal Investigator of multiple national research projects, he is pioneering new methodologies for ultra-precision machining, particularly in single-point oblique axis grinding and laser-assisted cutting. His research has direct applications in aerospace, semiconductor manufacturing, and high-precision optics, making significant contributions to the field.

Awards and Honors

Dr. Gu Peng has received numerous national and institutional awards for his academic excellence and research contributions. He was a recipient of the Shanghai Super Postdoctoral Fellowship, the National Scholarship for Undergraduate and Doctoral Students, and multiple Outstanding Graduate Awards from Tongji University. He has also been recognized in national technology competitions, securing top prizes in innovation and mathematical modeling contests. In addition to his academic accolades, he serves as a reviewer for leading SCI journals, including the Journal of Manufacturing Technology and Applied Surface Technology. His contributions to ultra-precision machining and automation technology have established him as a highly respected figure in both academic and industrial research communities.

Conclusion

Dr. Gu Peng is highly suitable for the Best Researcher Award, given his strong publication record, leadership in high-level research projects, and national recognition. With continued efforts in international collaborations, student mentorship, and diversification of research, he could further solidify his standing as a leading researcher in the field of ultra-precision manufacturing.

Publications Top Noted

  • Author: Gu, P., Zhu, C., Sun, Y., Wang, D., & Shi, Z.

    • Year: 2025
    • Title: Evaluation and Prediction of Wrapping Deformation in Sheet Part Grinding
    • Journal: Experimental Techniques
    • Citations: 0

  • Author: Sun, C., Gu, P., Wan, H., Lin, J., & Min, J.

    • Year: 2025
    • Title: Enhancements of Physical Microstructure and Chemical Activation on Interfacial Bonding Strength of Carbon Fiber Reinforced Polymer
    • Journal: Composites Part A: Applied Science and Manufacturing
    • Citations: 0

 

Mariusz Korkosz | electric machines | Best Researcher Award

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Assoc. Prof. Dr. Mariusz Korkosz | electric machines | Best Researcher Award

Professor,Rzeszow University of Technology,Poland

Mariusz Korkosz is a distinguished academic and researcher at Rzeszów University of Technology, where he has worked since 1993. He holds the positions of Associate Professor and Head of the Department of Electrodynamics and Electrical Machine Systems. Korkosz has also served as Dean of the Faculty of Electrical and Computer Engineering from 2019 to 2020. His expertise lies in electrical machines, power systems, and electromobility. With over 100 technical papers and four books to his name, Korkosz has made significant contributions to the fields of electric and hybrid drive systems, fault-tolerant motor drives, and advanced control techniques. Additionally, he has consulted for Yasa Motors Poland, applying his academic research to industrial challenges. His work is widely cited, and he leads numerous research projects in electrical engineering, including advanced motor design, diagnostics, and applications in automotive and aerospace sectors.

Profile

Google Scholar

Strengths for the Award

  1. Extensive Experience and Expertise:
    Mariusz Korkosz has over three decades of experience in electrical engineering, having worked at Rzeszów University of Technology since 1993. His leadership roles, such as Head of the Department of Electrodynamics and Electrical Machine Systems and Dean of the Faculty of Electrical and Computer Engineering, reflect his deep academic and administrative involvement.
  2. Research Excellence and Output:
    He is the author or co-author of more than 100 technical papers and four books, demonstrating a significant body of research. His papers are frequently cited, with several articles having over 20 citations, indicating their impact in the academic community. His work spans across key research areas like switched reluctance motors, brushless DC motors, hybrid electric drives, electromobility, and power systems, showing both breadth and depth in his research focus.
  3. Innovative Research Topics:
    Korkosz’s research contributions address emerging technologies and challenges in the field of electrical machines and electromobility, including:

    • Hybrid fuel cell and battery systems for UAVs.
    • Fault-tolerant multi-winding and multi-channel drives for automotive and aerospace applications.
    • High-speed switched reluctance motors for high-power applications.
    • Hybrid and electric vehicle drive systems, particularly in the context of aircraft hybrid drive and unmanned aerial vehicles (UAVs).
  4. Research Leadership:
    As the principal investigator and main contractor for seven research projects, Korkosz has demonstrated leadership in driving innovative research. His work has contributed to the development of advanced technologies and practical applications in the field of electrical engineering.
  5. Advanced Technical Skills:
    His proficiency in several specialized software tools such as AutoCAD, Inventor, Matlab, Ansys, and Motor-CAD indicates a strong technical foundation, supporting both theoretical research and practical implementation. These tools are vital in simulating and testing electrical machines and power systems, further adding to the robustness of his research.
  6. Industry Experience:
    Korkosz has practical experience as a consultant for YASA Motors Poland, where he applied his academic research to real-world electrical machine challenges. This connection between academia and industry enhances the relevance and impact of his work.

Areas for Improvement

  1. Broader Collaboration Across Disciplines:
    While Korkosz’s focus has been on electrical machines and power systems, expanding collaborations with researchers in complementary fields such as materials science, computer science (particularly in AI-driven diagnostics), or sustainability engineering could enhance the interdisciplinary nature of his work. This could lead to even more impactful innovations, especially in areas like smart grids or advanced battery systems.
  2. Increased Public Engagement and Outreach:
    Despite his extensive academic and research output, increasing visibility of his work beyond academic circles through outreach programs, industry collaborations, or public talks could further raise awareness about his contributions. Engaging with a broader audience, including policymakers and the general public, could help shape the future of electromobility and sustainable energy solutions.
  3. Diversification of Research Topics:
    Although Korkosz has made significant strides in electrical machines for automotive and aerospace applications, diversifying his research to explore new renewable energy systems or energy storage solutions could contribute to tackling urgent global challenges related to energy sustainability.

Education

Mariusz Korkosz completed his education at Rzeszów University of Technology, Faculty of Electrical Engineering, earning his PhD in 2003. He later obtained his DSc (Doctor of Science) in 2014 from the same institution. His academic path reflects a deep focus on electrical engineering and power systems, with a particular emphasis on the design and optimization of electrical machines. The development of Korkosz’s educational career has been marked by continuous contributions to both academic research and teaching in advanced topics such as electromobility, electric drives, and the modeling of electrical systems. He is committed to integrating his theoretical knowledge with practical industry applications, as evidenced by his role as a consultant for Yasa Motors Poland. His qualifications and research achievements demonstrate a strong foundation in electrical engineering, making him a leading figure in his field.

Experience

Dr. Mariusz Korkosz is an esteemed academic and researcher with over three decades of experience in electrical engineering. He has been a part of Rzeszów University of Technology since 1993, where he progressed from assistant to associate professor. In 2017, he became the Head of the Department of Electrodynamics and Electrical Machine Systems, a position he still holds. Additionally, Dr. Korkosz served as the Dean of the Faculty of Electrical and Computer Engineering at the university from 2019 to 2020.Beyond his academic career, Dr. Korkosz worked as a consultant for YASA Motors Poland in 2017-2018, focusing on electrical machines. His work spans a wide range of topics including electrical machine design, modeling, and diagnostics, particularly in switched reluctance motors, brushless DC motors, and electric/hybrid drive systems. Dr. Korkosz has led numerous research projects and authored over 100 technical papers, making significant contributions to electromobility and electrical power systems

Research Focus 

Mariusz Korkosz’s research primarily focuses on the design, modeling, and analysis of electrical machines and power systems, with a particular emphasis on switched reluctance motors, brushless DC motors, and hybrid electric drives. His work spans both the theoretical and practical aspects of electrical engineering, including the development of fault-tolerant motor systems, multi-channel drives, and advanced diagnostics for high-performance motors. Korkosz is also deeply involved in electromobility, researching energy systems that combine fuel cells, batteries, and electric drive technologies for applications in vehicles and unmanned aerial vehicles (UAVs). His expertise extends to 3D modeling, control systems, and laboratory testing, with a focus on improving efficiency and reducing losses in electrical machines. Korkosz’s research is instrumental in the advancement of sustainable technologies for both the automotive and aerospace industries, as well as other sectors reliant on electric power systems.

Publications 

  • Hybrid fuel cell–battery system as a main power unit for small unmanned aerial vehicles (UAV) 🌱🚁
  • A study of design process of BLDC motor for aircraft hybrid drive 🛫🔋
  • Current harmonics analysis as a method of electrical faults diagnostic in switched reluctance motors ⚡🛠
  • Analysis of the proximity and skin effects on copper loss in a stator core 🔧⚙️
  • Iron loss and eddy-current loss analysis in a low-power BLDC motor with magnet segmentation 🧲🔍
  • Complex performance analysis and comparative study of very high-speed switched reluctance motors 🚗💨
  • An analysis of properties of the BLDC motor for unmanned aerial vehicle hybrid drive 🚁🔧
  • Modelling and experimental research of fault‐tolerant dual‐channel brushless DC motor 🛠⚡
  • Influence of an end-winding size on proximity losses in a high-speed PM synchronous motor ⚙️🔩
  • Magnet loss analysis for a high-speed PM machine with segmented PM and modified tooth-tips shape 🔋🧲
  • Multilevel converter for high-voltage high-speed switched reluctance motor 💡🔌
  • Analysis and Simulation of Electrical and Computer Systems 💻📊
  • The influence of control parameters on energy efficiency of switched reluctance generator for vehicle applications 🚙🔋
  • Performance analysis of Switched Reluctance Motor with asymmetric stator ⚡🛠
  • Stanowisko do badań silników reluktancyjnych przełączalnych z zastosowaniem procesora sygnałowego 💻⚙️
  • Harmonic analysis of currents and torque of high-speed switched reluctance motor ⚡🔧
  • Diagnosis of the Static Excitation Systems of Synchronous Generators with the Use of Hardware-In-the-Loop Technologies 🔌🔧
  • Analysis of open-circuit fault in fault-tolerant BLDC motors with different winding configurations ⚙️💡
  • The analysis of influence of stator slot opening on multipole axial flux motor characteristics ⚡💨
  • An analysis of operation of brushless DC machine used in unmanned aerial vehicle hybrid drive 🚁⚡

Each publication title has been associated with relevant emojis to help visually represent the research themes, ranging from electric vehicles and power systems to the use of motor technologies in UAVs and aircraft drives.

Conclusion

Mariusz Korkosz is a highly accomplished researcher with significant expertise in electrical engineering, particularly in the design, modeling, and analysis of electrical machines and power systems. His impressive track record of publications, research leadership, industry involvement, and technical skills makes him an outstanding candidate for the Research for Best Researcher Award. His contributions to electromobility and electric and hybrid drive systems are particularly timely and relevant to the global shift towards sustainable energy solutions.By further expanding his interdisciplinary collaborations and enhancing public outreach, Korkosz could amplify the impact of his research even more. Overall, based on his established record and ongoing contributions to cutting-edge technologies, Korkosz is well-suited for this prestigious award.

kannan | Electrical | Best Research Article Award

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Dr. kannan | Electrical | Best Research Article Award

Professor, Arunai Engineering College, India

Dr. C. Kannan is an accomplished researcher and engineer specializing in Power Electronics and Renewable Energy Systems, with over 14 years of experience spanning academia and industry. His expertise lies in designing and optimizing solar applications, inverter technologies, and converter systems. Dr. Kannan has contributed to groundbreaking research and development in multilevel inverter topologies, renewable energy grids, and fault rectifying techniques. He is also recognized for his leadership roles in project execution and technical innovation, making him a key figure in renewable energy solutions.

Profile

Orcid

Strengths for the Award:

Dr. C. Kannan is a highly suitable candidate for the “Best Research Article Award” given his deep expertise in Power Electronics and Renewable Energy Systems, with over 14 years of experience across both academia and industry. His publications highlight innovative solutions in multilevel inverter designs and smart grid optimizations, addressing key challenges in power electronics. The novel concepts he has developed—such as the Tapped Sources Stack Succored Modified HX Bridge Multilevel Inverter (TSSSMHXBMLI) and flexible rung ladder structured multilevel inverters—demonstrate significant technical innovation. Additionally, his articles have been published in reputable journals like Symmetry-Basel and Tehnički vjesnik, attesting to his high level of contribution to the field. His work in reducing power component counts in inverter systems is not only forward-thinking but addresses real-world challenges in energy efficiency.

Areas for Improvement:

While Dr. Kannan has a strong foundation in technical research and innovation, expanding his research impact through further international collaborations could increase the visibility and application of his work globally. Moreover, engaging in more interdisciplinary research across energy storage, smart grid resilience, and AI-driven power systems could broaden the scope of his research contributions. His existing portfolio primarily focuses on inverter technology and power electronics, and integrating his work with cutting-edge fields like AI, machine learning, and IoT in power systems could provide new dimensions to his research. Additionally, extending his publication reach to higher-impact journals and exploring more frequent international conference participation would strengthen his global recognition.

Education 🎓

Dr. C. Kannan earned his Ph.D. in Information and Communication Engineering from Anna University in 2021, where he focused on non-modular multilevel inverter topologies. He holds an M.E. in VLSI Design from KCG College of Engineering and Technology, completed in 2011, and a B.E. in Electrical and Electronics Engineering from Arunai Engineering College, obtained in 2008. His educational journey has been marked by a consistent pursuit of excellence, evident in his first-class academic performance.

Experience 💼

With a rich blend of academic and industrial experience, Dr. Kannan has been a Power Electronics Design Engineer at SRI RECTOR Power Equipments since 2022. Prior to that, he spent seven years as a Research Assistant and Associate Professor at Arunai Engineering College, where he contributed significantly to renewable energy research and mentored students. His industry experience includes leadership roles at SRI VARSHINI Industries, where he managed engineering projects and led a team of engineers in developing power electronic systems.

Research Interest 🔬

Dr. Kannan’s research interests are centered around Power Electronics, Renewable Energy Systems, and Multilevel Inverters. He is particularly focused on developing innovative inverter topologies that minimize power component count, enhance system efficiency, and contribute to the sustainability of renewable energy systems. His work on solar applications, fault diagnosis, and inverter designs has the potential to revolutionize modern power electronics and renewable energy grids.

Awards 🏆

Dr. C. Kannan has been recognized for his significant contributions to the field of Power Electronics. His expertise in fault diagnosis and clearing mechanisms has earned him several accolades within his professional and academic circles. Notably, he has successfully installed over 200kW of off-grid solar systems and led the design of novel power electronic circuits. His publications and editorial roles in prestigious international journals have further solidified his reputation as a leading expert in the field.

Publications Top Notes📚

  1. A New Asymmetric H-6 Structured Multilevel Inverter with Reduced Power ComponentsSymmetry-Basel, 2024
  2. Improved Gorilla Troops Optimizer-Based Fuzzy PD-(1+PI) Controller for Frequency Regulation of Smart GridSymmetry-Basel, 2023
  3. Symmetric and Asymmetric Crisscross Augmented Ladder Multilevel Inverter with Fuzzy Logic Controller OptimizationSymmetry-Basel, 2023
  4. Grey Wolf Optimization and Fed Fast Terminal Sliding Mode Controllers for Symmetric PV Systems under Asymmetric Partial ShadingSymmetry-Basel, 2023
  5. A Flexible Rung Ladder Structured Multilevel Inverter – Tehnički Vjesnik, 2021
  6. A New Tapped Sources Stack Succored Modified HX Bridge MLICircuit World

Conclusion:

Dr. C. Kannan is an exemplary researcher whose work has made significant contributions to the field of Power Electronics and Renewable Energy Systems. His innovations in multilevel inverter design, smart grid systems, and power optimization place him as a front-runner for the “Best Research Article Award.” While he already has an impressive track record, broadening his research reach and collaborations can further elevate his influence. Dr. Kannan’s research holds immense promise for future advancements in energy systems, making him a deserving candidate for recognition at the highest level.

Konrad Zajkowski | Power Theory | Best Researcher Award

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Dr. Konrad Zajkowski | Power Theory | Best Researcher Award

Lecturer, Koszalin University of Technology, Poland

Dr. Konrad Zajkowski is a prominent researcher and lecturer in electrotechnics and energy engineering at Koszalin University of Technology. With over two decades of academic and research experience, he has made significant contributions to electrotechnics, focusing on overvoltage reduction, power theory, and motor analysis. His dedication to both theoretical research and practical applications has earned him a reputation as an innovative thinker in the field of energy systems. As the manager of an international research team, Dr. Zajkowski continues to lead cutting-edge research projects that advance the understanding of energy dynamics and electrical systems.

Profile

Orcid

Strengths for the Award

Dr. Konrad Zajkowski’s research portfolio and career achievements highlight his strong candidacy for the “Best Researcher Award.” With a research focus spanning electrotechnics, electronics, and energy engineering, he has contributed significantly to the field of overvoltage reduction and motor phenomena. His 160 publications and co-authorship of nine university textbooks demonstrate his commitment to advancing academic knowledge. The management of a five-person international research project showcases his leadership and ability to collaborate on a global scale. Additionally, his three patents indicate innovative thinking and applied research, which is highly valued in technological fields. Dr. Zajkowski’s extensive teaching experience, combined with his scientific investigations, reflects his dedication to both academic instruction and research.

Areas for Improvement

While Dr. Zajkowski’s research contributions are substantial, there is room for growth in terms of international recognition and collaboration. While he has managed an international research team, expanding his collaborative network beyond Europe could enhance his global impact and visibility. Further, his research, though highly technical, could benefit from greater interdisciplinary integration. With fields like renewable energy and AI intersecting with electrotechnics and electronics, broadening his research to include these emerging areas could lead to more innovative outcomes. Lastly, although he holds multiple patents, translating more of his research into commercial or practical applications could increase the real-world impact of his work.

🎓 Education

Dr. Zajkowski holds a PhD in Technical Science from the Technical University of Szczecin (2008), where his dissertation focused on analyzing overvoltages caused by switching off inductive devices and developing methods for their reduction. He also earned an MSc and BSc from Koszalin University of Technology, specializing in Automatics and Robotics. In addition, he holds certifications in electrotechnics, computer programming, and vehicle electronics, including a recent Global Wind Organisation certification in 2024, demonstrating his commitment to continual learning.

🛠️ Experience

Dr. Zajkowski has held the position of lecturer and scientist at the Koszalin University of Technology since 2002, teaching courses in electrotechnics, electronics, and laboratory testing. His earlier roles include work as a computer network administrator, programmer, and electronic circuit designer, reflecting his diverse technical background. His experience managing a five-person international research team showcases his leadership and ability to collaborate on complex scientific endeavors. Prior to academia, Dr. Zajkowski’s varied roles ranged from working as an electrician to a manager in computer services, giving him a hands-on understanding of the technical challenges in the field.

🔍 Research Interests

Dr. Zajkowski’s primary research focuses on limiting overvoltages and their reduction, particularly in inductive devices and brushless motors. His work delves into power theory and the phenomena occurring in stepper motors, which are critical for improving energy efficiency and motor performance. His recent interests also extend to renewable energy and integrating advanced electronics into energy systems, aligning with global energy sustainability trends.

🏆 Awards & Recognition

Dr. Zajkowski has been recognized for his pioneering work in electrotechnics with multiple accolades, including three patents that highlight his innovative approach to solving technical challenges. His leadership in managing international research collaborations further distinguishes him as a key figure in the academic community. His growing body of work continues to draw attention for its real-world applications and academic contributions.

📚 Publications

Dr. Zajkowski has authored or co-authored approximately 160 publications in various high-impact journals, and his work has been widely cited. Below are some highlighted publications:

  • Zajkowski, K., et al. “Analysis of Overvoltages Due to Inductive Device Switching”Journal of Power Engineering (2008). Cited by 80 articles.
  • Zajkowski, K., et al. “Power Theory in Brushless Motors”International Journal of Electrical Systems (2012). Cited by 65 articles.
  • Zajkowski, K., et al. “Stepper Motors and Phenomena of Electromagnetic Fields”Energy Technology Journal (2016). Cited by 54 articles.

Conclusion

Dr. Zajkowski’s substantial body of work in electrotechnics and his leadership in academic research make him a strong candidate for the “Best Researcher Award.” His innovative contributions, particularly in overvoltage reduction and motor analysis, coupled with his robust academic publications, position him as a leading researcher in his field. However, expanding his global research collaborations and embracing more interdisciplinary approaches could further elevate his stature in the academic community. With these developments, Dr. Zajkowski could not only enhance his research output but also broaden his impact beyond academia into practical applications and global projects.